function [a] = of6c_p(x)
data_struct = load('data6c.mat');
prices = double(data_struct.prices);
segNP = double(data_struct.segNP);
nProducts = length(prices);
segQ = double(data_struct.segQ);
segScale = double(data_struct.segScale);
uniqSeg = double(data_struct.uniqSeg);
uniqSeg_size = size(uniqSeg);
sharepairs = double(data_struct.sharepairs);
szpairs = double(data_struct.szpairs);
nNewSegments = uniqSeg_size(1);
os = double(data_struct.os);
upMat = data_struct.upMat;
[y1,y2,~]=ind2sub(size(upMat),find(upMat));
usub = zeros(nNewSegments,nProducts);
u = zeros(nNewSegments,3+nProducts);
for i = 1:nNewSegments
    u(i,:) = [uniqSeg(i,1)+1,y1(i),y2(i),os(uniqSeg(i,3)+1,:)];
    usub(i,:) = [os(uniqSeg(i,3)+1,:)];
    usub(i,y2(i)) = 0;
end
a = 0;
if nProducts == 6
    for i = 1:nNewSegments
        au = exp(segNP(u(i,1)))+u(i,4)*exp(1/segScale(u(i,1))*(segQ(1,u(i,1))-prices(1)))...
            +u(i,5)*exp(1/segScale(u(i,1))*(segQ(2,u(i,1))-prices(2)))+u(i,6)*exp(1/segScale(u(i,1))*(segQ(3,u(i,1))-prices(3)))...
            +u(i,7)*exp(1/segScale(u(i,1))*(segQ(4,u(i,1))-prices(4)))+u(i,8)*exp(1/segScale(u(i,1))*(segQ(5,u(i,1))-prices(5)))...
            +u(i,9)*exp(1/segScale(u(i,1))*(segQ(6,u(i,1))-prices(6)));
        busub = exp(segNP(u(i,1)))+usub(i,1)*exp(1/segScale(u(i,1))*(segQ(1,u(i,1))-prices(1)))...
            +usub(i,2)*exp(1/segScale(u(i,1))*(segQ(2,u(i,1))-prices(2)))+usub(i,3)*exp(1/segScale(u(i,1))*(segQ(3,u(i,1))-prices(3)))...
            +usub(i,4)*exp(1/segScale(u(i,1))*(segQ(4,u(i,1))-prices(4)))+usub(i,5)*exp(1/segScale(u(i,1))*(segQ(5,u(i,1))-prices(5)))...
            +usub(i,6)*exp(1/segScale(u(i,1))*(segQ(6,u(i,1))-prices(6)));
        a = a-x(i)*(segScale(u(i,1))*(reallog(2)-reallog(1/(x(nNewSegments+i)-1)*(busub*(2-2*x(nNewSegments+i))+...
                    au*(-1-sharepairs)-sqrt(au^2*((sharepairs-1)^2+4*sharepairs*x(nNewSegments+i))))))+segQ(u(i,3),u(i,1))-prices(u(i,2)));
    end
end
end